Résumé :
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[BDSP. Notice produite par INIST-CNRS 7E9F8R0x. Diffusion soumise à autorisation]. Objective. We measured lead and other heavy metals in dust during older housing demolition and effectiveness of dust suppression. Methods. We used American Public Housing Association Method 502 and U.S. Environmental Protection Agency Methods SW3050B and SW6020 at 97 single-family housing demolition events with intermittent (or no) use of water to suppress dust at perimeter, non-perimeter, and locations without demolition, with nested mixed modeling and tobit modeling with left censoring. Results. The geometric mean (GM) lead dust fall during demolition was 6.01 micrograms of lead per square foot per hour (mug Pb/ft2/hour). GM lead dust fall was 14.18 mug Pb/ft2/hour without dust suppression, but declined to 5.48 mug Pb/ft2/hour (p=0.057) when buildings and debris were wetted. Significant predictors included distance, wind direction, and main street location. At 400 feet, lead dust fall was not significantly different from background. GM lead concentration at demolition (2,406 parts per million [ppm]) was significantly greater than background (GM=579 ppm, p=0.05). Arsenic, chromium, copper, iron, and manganese demolition dust fall was significantly higher than background (p
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